CN112092064A - Foam slitting system - Google Patents

Abstract

The invention provides a foam slitting system. The foam slitting system comprises: a base plate; the bottom of the U-shaped block is fixed at the top of the bottom plate; the clamping devices are arranged on two sides of the bottom of the inner wall of the U-shaped block and comprise two clamping plates, and the bottoms of the clamping plates are connected to two sides of the bottom of the inner wall of the U-shaped block in a sliding mode respectively. The foam slitting system provided by the invention can fully clamp foam to be slit, the stability of the clamped foam is good, the stability of the foam in the slitting process is improved, the effect and the efficiency of slitting the foam are improved, and the foam is mainly clamped at the slitting position through the arrangement of the auxiliary clamping structure, so that the foam is ensured to be distorted and deformed at the slitting position, the slitting effect is influenced, the quality of the cut foam is greatly improved, and the foam slitting system is suitable for being used in different factories.

Description

Foam slitting system

Technical Field

The invention relates to the field of foam processing, in particular to a foam slitting system.

Background

The foam is a material foamed by plastic particles, and is called foam for short. The foam is divided into PU foam, antistatic foam, conductive foam, EPE, antistatic EPE, PORON, CR, EVA, bridging PE, SBR, EPDM, etc. the foam has a series of characteristics of elasticity, light weight, rapid pressure-sensitive fixation, convenient use, free bending, ultrathin volume, reliable performance, etc.

The bubble is cotton at the in-process of processing, need cut processing to the bubble cotton, however there is a large amount of shortcomings in the equipment is cut to current bubble cotton, for example, equipment is cut to current bubble cotton can not be fine cut the bubble cotton, because current bubble cotton has elasticity, light in weight's characteristics, so that cut equipment can not effectually press from both sides tight the bubble cotton, thereby lead to in the position of cutting, the bubble cotton takes place to remove, finally lead to the bubble cotton after cutting unsatisfactory, not only caused the cotton waste of bubble, and influenced the effect of cutting easily.

Therefore, it is necessary to provide a foam slitting system to solve the above technical problems.

Disclosure of Invention

The invention provides a foam slitting system, which solves the problem that foam cannot be effectively clamped, so that the foam moves at a cutting position.

In order to solve the technical problem, the foam slitting system provided by the invention comprises: a base plate; the bottom of the U-shaped block is fixed at the top of the bottom plate; the two clamping devices are arranged on two sides of the bottom of the inner wall of the U-shaped block and comprise two clamping plates, and the bottoms of the two clamping plates are respectively connected to two sides of the bottom of the inner wall of the U-shaped block in a sliding mode; the bottoms of the two baffle plates are respectively fixed at the tops of the two clamping plates, clamping blocks penetrate through the tops of the two baffle plates, the bottoms of the two clamping blocks penetrate through the two baffle plates and extend to the bottoms of the two baffle plates, one ends of the two clamping blocks extending to the bottoms of the two baffle plates are respectively fixedly connected with a clamping plate, and one side of each clamping plate is respectively connected with one side of the two clamping plates in a sliding mode, wherein the side of each clamping plate is opposite to the side of the two clamping plates; the two clamping structures are respectively arranged at the tops of the two baffles; the bottoms of the two supporting plates are respectively fixed on two sides of the top of the bottom plate; the two sides of the bottom of the top plate are respectively fixed to the two sides of the bottoms of the two supporting plates, and the front surface of the top plate is fixedly connected with a scale plate; the moving structure is arranged at the bottom of the top plate and comprises a moving box, and the top of the moving box is connected to the bottom of the top plate in a sliding manner; the cutting machine comprises a movable box, a telescopic structure and a cutting mechanism, wherein the telescopic structure is arranged at the bottom of the movable box and comprises a sliding plate, the top of the sliding plate is connected to the bottom of the movable box in a sliding mode, the bottom of the sliding plate is fixedly connected with an electric telescopic rod, the bottom end of the electric telescopic rod is fixedly connected with a stabilizing frame, the bottom of the stabilizing frame is provided with a cutting machine body, two sides of the cutting machine body are fixedly connected with connecting plates, and the tops of the two connecting plates are fixed to the bottom of the stabilizing frame through supporting rods; and the two auxiliary clamping structures are respectively arranged at the bottoms of the two connecting plates.

Preferably, the bottoms of the separated sides of the two supporting plates are in threaded connection with screw rods, the other ends of the two screw rods penetrate through the U-shaped block and extend into the U-shaped block, and one ends of the two screw rods extending into the U-shaped block are respectively and rotatably connected to the separated sides of the two clamping plates.

Preferably, the clamping structure includes the chucking frame, sliding connection has T type piece between the top and the bottom of the inner wall of chucking frame, one side of T type piece is run through the chucking frame and is extended to the outside of chucking frame.

Preferably, the other side fixedly connected with action bars of T type piece, the other end of action bars runs through the chucking frame and extends to the outside of chucking frame, the action bars is located the surface cover of the inside of chucking frame is equipped with extrusion spring.

Preferably, the back of the movable box is fixedly connected with a rotating motor through a support frame, an output shaft of the rotating motor is fixedly connected with a threaded rod, the top of the inner wall of the movable box is connected with a movable block in a sliding manner, the bottom of the movable block penetrates through the movable box and extends to the bottom of the movable box, and one end, extending to the bottom of the movable box, of the movable block is fixed to the top of the sliding plate.

Preferably, one end of the threaded rod penetrates through the movable box and extends into the movable box, one end of the threaded rod extending into the movable box is rotatably connected to the front face of the interior of the movable box, and the inner surface of the movable block is in threaded connection with the outer surface of the threaded rod.

Preferably, telescopic plates are fixedly connected to two sides of the bottom of the sliding plate, auxiliary plates are slidably connected to opposite sides of the two telescopic plates, and the bottoms of the two auxiliary plates are slidably connected to the top of the stabilizing frame.

Preferably, the top of roof is provided with drive structure, drive structure includes U type frame, the bottom of U type frame is fixed in the top of roof, fixedly connected with slide bar between the both sides of the inner wall of U type frame, the surface sliding connection of slide bar has the sleeve, telescopic bottom fixedly connected with actuating lever, the bottom of actuating lever runs through the roof extends to the bottom of roof, the actuating lever extends to the one end of the bottom of roof is fixed in the top of removal case.

Preferably, the inner surface of the sleeve is fixedly connected with an elastic anti-slip sleeve.

Preferably, supplementary centre gripping structure includes the auxiliary frame, sliding connection has the ejector pin between the both sides of the inner wall of auxiliary frame, the first spring of top fixedly connected with of ejector pin, the bottom of ejector pin runs through the auxiliary frame and extends to the bottom of auxiliary frame, the ejector pin extends to the one end fixedly connected with arc piece of the bottom of auxiliary frame.

Compared with the prior art, the foam slitting system provided by the invention has the following beneficial effects:

the invention provides a foam slitting system, which is characterized in that two screw rods are manually rotated, the screw rods are rotated and are in threaded connection with a support plate, so that the screw rods move left and right in the process of re-rotation, the two clamping plates can be driven to move in opposite directions when the screw rods move left and right, and then slit foam can be clamped; the two clamping blocks are manually moved downwards, the clamping plates can be driven to move downwards through the downward movement of the two clamping blocks, the tops of the two sides of the foam can be clamped through the downward movement of the two clamping plates, the T-shaped block can be extruded through the elastic force of the extrusion spring, and the T-shaped block is enabled to move towards the outside of the clamping frame, so that the clamping blocks are clamped, the stability of the clamping blocks after the downward movement is further ensured, the stability of the clamped foam is indirectly ensured, the stability of the foam in the slitting process is effectively improved, and the effect and the efficiency of the slitting of the foam are improved; through the left-right movement sleeve, when the sleeve moves left and right, the movable structure and the telescopic structure can be driven by the driving rod to drive the splitting machine body to move left and right, and then splitting at different positions is met according to the arrangement of the scale plates; the cutting machine comprises an electric telescopic rod, a stabilizing frame, an auxiliary clamping structure, an ejector rod, an arc block, a cutting machine body, a first spring, a second spring, a; then the threaded rod can be driven to rotate by starting the rotating motor, the movable block can be driven to move back and forth by the rotation of the threaded rod, the movable block can move back and forth, the slitting machine can drive the slitting machine body to move back and forth through the telescopic structure, the slitting of the foam can be completed at the moment, the operation is simple, the practicability is strong, the auxiliary clamping structure is arranged to clamp at the slitting position to ensure that the twisting deformation occurs at the slitting position to influence the slitting effect, the first spring is mainly used for extruding the ejector rod and the arc-shaped block so as to ensure that the arc-shaped block can better clamp the foam at the slitting position, and the both ends of arc piece are the arc form, are convenient for better fore-and-aft movement of arc piece, avoid the motion around the arc piece, influence the cotton deformation of bubble, great improvement the quality after the cotton is cut to the bubble, be applicable to the use of different mills.

Drawings

FIG. 1 is a schematic structural diagram of a foam slitting system according to a preferred embodiment of the present invention;

FIG. 2 is a side cross-sectional view of the travel box shown in FIG. 1;

FIG. 3 is a schematic structural view of the slitting machine body and the auxiliary clamping structure shown in FIG. 1;

FIG. 4 is an enlarged view of portion A of FIG. 1;

fig. 5 is a side view of the construction of the sleeve shown in fig. 1.

Reference numbers in the figures: 1. the cutting machine comprises a bottom plate, 2, a U-shaped block, 3, a clamping device, 31, a clamping plate, 32, a baffle plate, 33, a clamping block, 34, a clamping plate, 35, a screw rod, 4, a clamping structure, 41, a clamping frame, 42, a T-shaped block, 43, an operating rod, 44, an extrusion spring, 5, a supporting plate, 6, a top plate, 7, a scale plate, 8, a moving structure, 81, a moving box, 82, a rotating motor, 83, a threaded rod, 84, a moving block, 9, a telescopic structure, 91, a sliding plate, 92, an electric telescopic rod, 93, a stabilizing frame, 94, a telescopic plate, 95, an auxiliary plate, 10, a cutting machine body, 11, a connecting plate, 12, an auxiliary clamping structure, 121, an auxiliary frame, 122, a top rod, 123, a first spring, 124, an arc-shaped block, 13, a driving structure, 131, a U-shaped frame, 132, a sliding rod, 133, a sleeve, 134, a.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5 in combination, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of a foam slitting system according to the present invention; FIG. 2 is a side cross-sectional view of the travel box shown in FIG. 1; FIG. 3 is a schematic structural view of the slitting machine body and the auxiliary clamping structure shown in FIG. 1; FIG. 4 is an enlarged view of portion A of FIG. 1; fig. 5 is a side view of the construction of the sleeve shown in fig. 1. The cotton system of cutting of bubble includes: a base plate 1; the bottom of the U-shaped block 2 is fixed on the top of the bottom plate 1; the two clamping devices 3 are arranged on two sides of the bottom of the inner wall of the U-shaped block 2, each clamping device 3 comprises two clamping plates 31, and the bottoms of the two clamping plates 31 are connected to two sides of the bottom of the inner wall of the U-shaped block 2 in a sliding mode respectively; the bottoms of the two baffle plates 32 are respectively fixed on the tops of the two clamping plates 31, clamping blocks 33 penetrate through the tops of the two baffle plates 32, the bottoms of the two clamping blocks 33 penetrate through the two baffle plates 32 and extend to the bottoms of the two baffle plates 32, one ends of the two clamping blocks 33 extending to the bottoms of the two baffle plates 32 are respectively fixedly connected with clamping plates 34, and one sides of the two clamping plates 34 are respectively connected on the opposite sides of the two clamping plates 31 in a sliding manner; the two clamping structures 4 are respectively arranged at the tops of the two baffle plates 32; the bottoms of the two supporting plates 5 are respectively fixed on two sides of the top of the bottom plate 1; the two sides of the bottom of the top plate 6 are respectively fixed to the two sides of the bottoms of the two supporting plates 5, and the front surface of the top plate 6 is fixedly connected with a scale plate 7; the moving structure 8 is arranged at the bottom of the top plate 6, the moving structure 8 comprises a moving box 81, and the top of the moving box 81 is slidably connected to the bottom of the top plate 6; the telescopic structure 9 is arranged at the bottom of the movable box 81, the telescopic structure 9 comprises a sliding plate 91, the top of the sliding plate 91 is slidably connected to the bottom of the movable box 81, the bottom of the sliding plate 91 is fixedly connected with an electric telescopic rod 92, the bottom end of the electric telescopic rod 92 is fixedly connected with a stabilizing frame 93, the bottom of the stabilizing frame 93 is provided with a splitting machine body 10, two sides of the splitting machine body 10 are fixedly connected with connecting plates 11, and the tops of the two connecting plates 11 are fixed to the bottom of the stabilizing frame 93 through supporting rods; two supplementary clamping structure 12, two supplementary clamping structure 12 sets up respectively in two a plurality of draw-in groove has all been seted up to one side that two fixture blocks 33 leave mutually, the chucking of the T type piece 42 of being convenient for to cutting machine body 10 and electric telescopic handle 92 are connected with external power and control switch, and the setting of scale plate 7 is convenient for the staff and knows the position of cutting, and cutting machine body 10 is prior art's cutting machine.

Two the equal threaded connection in bottom of the one side that backup pad 5 kept away from has lead screw 35, two the other end of lead screw 35 all runs through U type piece 2 and extend to the inside of U type piece 2, two lead screw 35 extends to the one end of the inside of U type piece 2 is rotated respectively and is connected in two one side that pinch-off blades 31 kept away from, through the rotation of lead screw 35 to and two threaded connection between the backup pad 5 for the rotatory in-process again of lead screw 35, the side-to-side movement, and then can drive two pinch-off blades 31 side-to-side movements.

Chucking structure 4 includes chucking frame 41, sliding connection has T type piece 42 between the top and the bottom of the inner wall of chucking frame 41, one side of T type piece 42 is run through chucking frame 41 and is extended to the outside of chucking frame 41.

The opposite side fixedly connected with operating rod 43 of T type piece 42, the other end of operating rod 43 runs through chucking frame 41 and extends to the outside of chucking frame 41, operating rod 43 is located the surface cover of the inside of chucking frame 41 is equipped with extrusion spring 44, and T type piece 42's setting is mainly used for the chucking to fixture block 33 to with the draw-in groove looks adaptation on the fixture block 33, through with the chucking between the fixture block 33, thereby guarantee the stability behind the up-and-down motion of fixture block 33.

The back of the moving box 81 is fixedly connected with a rotating motor 82 through a support frame, an output shaft of the rotating motor 82 is fixedly connected with a threaded rod 83, the top of the inner wall of the moving box 81 is connected with a moving block 84 in a sliding manner, the bottom of the moving block 84 penetrates through the moving box 81 and extends to the bottom of the moving box 81, one end of the moving block 84 extending to the bottom of the moving box 81 is fixed at the top of the sliding plate 91, the rotating motor 82 is mainly used for driving the threaded rod 83 to rotate, and the rotating motor 82 is a forward and reverse rotating motor and is connected with an external power supply and a control switch.

One end of the threaded rod 83 penetrates through the movable box 81 and extends into the movable box 81, one end of the threaded rod 83 extending into the movable box 81 is rotatably connected to the front surface of the inner part of the movable box 81, the inner surface of the movable block 84 is in threaded connection with the outer surface of the threaded rod 83, and the movable block 84 can be driven to move back and forth through rotation of the threaded rod 83.

The two sides of the bottom of the sliding plate 91 are fixedly connected with telescopic plates 94, one opposite side of each of the two telescopic plates 94 is slidably connected with an auxiliary plate 95, the bottoms of the two auxiliary plates 95 are slidably connected with the top of the stabilizing frame 93, and the arrangement of the telescopic plates 94 and the auxiliary plates 95 mainly ensures the stability of the electric telescopic rod 92 when driving the stabilizing frame 93 and the splitting machine body 10 to move up and down.

The top of roof 6 is provided with drive structure 13, drive structure 13 includes U type frame 131, the bottom of U type frame 131 is fixed in the top of roof 6, fixedly connected with slide bar 132 between the both sides of the inner wall of U type frame 131, the surface sliding connection of slide bar 132 has sleeve 133, the bottom fixedly connected with actuating lever 134 of sleeve 133, the bottom of actuating lever 134 is run through roof 6 and is extended to roof 6 extends to the bottom of roof 6, actuating lever 134 extends to the one end of the bottom of roof 6 is fixed in the top of removal case 81, the setting of drive structure 13 mainly can drive cutting machine body 10 side-to-side movement through removal structure 8 and extending structure 9 to the cotton of bubble to different positions is cut.

The inner surface of the sleeve 133 is fixedly connected with an elastic anti-slip sleeve 135, and the arrangement of the elastic anti-slip sleeve 135 mainly ensures that the stability of the sleeve 133 after movement is good when the sleeve 133 moves on the outer surface of the sliding rod 132, so as to facilitate the subsequent slitting of foam.

The auxiliary clamping structure 12 comprises an auxiliary frame 121, a push rod 122 is slidably connected between two sides of the inner wall of the auxiliary frame 121, a first spring 123 is fixedly connected to the top of the push rod 122, the bottom end of the push rod 122 penetrates through the auxiliary frame 121 and extends to the bottom of the auxiliary frame 121, the push rod 122 extends to one end of the bottom of the auxiliary frame 121 and is fixedly connected with an arc block 124, the auxiliary clamping structure 12 is mainly arranged at a slitting position to clamp the slitting position so as to ensure that the slitting position is distorted and deformed, the slitting effect is influenced, the arrangement of the first spring 123 is mainly used for extruding the push rod 122 and the arc block 124 so as to ensure that the arc block 124 can clamp foam at the slitting position better, and two ends of the arc block 124 are arc-shaped, so that the better forward and backward movement of the arc block 124 is avoided, affecting the deformation of the foam.

The working principle of the foam slitting system provided by the invention is as follows:

s1, placing foam to be cut in the U-shaped block 2, manually rotating the two screw rods 35, and enabling the screw rods 35 to move left and right in the process of re-rotation through the rotation of the two screw rods 35 and the threaded connection between the screw rods 35 and the supporting plate 5, wherein when the screw rods 35 move left and right, the two clamping plates 31 can be driven to move in opposite directions, and then the cut foam can be clamped;

s2, manually moving the two clamping blocks 33 downwards, driving the clamping plates 34 to move downwards through the downward movement of the two clamping blocks 33, clamping the tops of two sides of the foam through the downward movement of the two clamping plates 34, and extruding the T-shaped block 42 through the elastic force of the extrusion spring 44, so that the T-shaped block 42 moves towards the outside of the clamping frame 41, the clamping blocks 33 are clamped, and the stability of the clamping blocks 33 after the downward movement is ensured;

s3, moving the sleeve 133 leftwards and rightwards, wherein when the sleeve 133 moves leftwards and rightwards, the driving rod 134 can drive the moving structure 8 and the telescopic structure 9 to drive the splitting machine body 10 to move leftwards and rightwards, and then the splitting at different positions is met according to the arrangement of the scale plate 7;

s4, the stabilizing frame 93 can be driven to move downwards by starting the electric telescopic rod 92, when the stabilizing frame 93 moves downwards, the splitting machine body 10 and the auxiliary clamping structure 12 can be driven to move downwards, and the auxiliary clamping structure 12 moves downwards, at this time, the arc-shaped blocks 124 can be preferentially contacted with the foam slitting position, along with the continuous downward movement of the splitting machine body 10 and the auxiliary clamping structure 12, at this time, the ejector rods 122 and the arc-shaped blocks 124 can be extruded by the elastic force of the first springs 123, so that the arc-shaped blocks 124 are tightly clamped with the slitting position, and then the foam can be slit by starting the splitting machine body 10;

s5, the threaded rod 83 can be driven to rotate through the starting of the rotating motor 82, the moving block 84 can be driven to move back and forth through the rotation of the threaded rod 83, the moving block 84 can move back and forth, the splitting machine body 10 can be driven to move back and forth through the telescopic structure 9, and the splitting of the foam can be completed at the moment.

Compared with the prior art, the foam slitting system provided by the invention has the following beneficial effects:

placing foam to be cut in the U-shaped block 2, manually rotating the two screw rods 35, and enabling the screw rods 35 to move left and right in the process of re-rotation through the rotation of the two screw rods 35 and the threaded connection between the screw rods 35 and the supporting plate 5, wherein when the screw rods 35 move left and right, the two clamping plates 31 can be driven to move in opposite directions, and then the cut foam can be clamped; the two clamping blocks 33 are moved downwards manually, the clamping plates 34 can be driven to move downwards through the downward movement of the two clamping blocks 33, the tops of the two sides of the foam can be clamped through the downward movement of the two clamping plates 34, the T-shaped block 42 can be extruded through the elastic force of the extrusion spring 44, the T-shaped block 42 moves towards the outside of the clamping frame 41, the clamping blocks 33 are clamped, the stability of the clamped foam is further ensured, the stability of the clamped foam is indirectly ensured, the stability of the foam is effectively improved in the slitting process, and the effect and the efficiency of the slitting of the foam are improved; through the left-right movement sleeve 133, when the sleeve 133 moves left and right, the driving rod 134 can drive the moving structure 8 and the telescopic structure 9 to drive the splitting machine body 10 to move left and right, and then the splitting at different positions is met according to the arrangement of the scale plate 7; through the starting of the electric telescopic rod 92, the stabilizing frame 93 can be driven to move downwards, when the stabilizing frame 93 moves downwards, the splitting machine body 10 and the auxiliary clamping structure 12 can be driven to move downwards, and through the downward movement of the auxiliary clamping structure 12, the arc-shaped block 124 can be preferentially contacted with the position where the foam is cut, along with the continuous downward movement of the splitting machine body 10 and the auxiliary clamping structure 12, at the moment, the ejector rod 122 and the arc-shaped block 124 can be extruded through the elastic force of the first spring 123, so that the arc-shaped block 124 is tightly clamped with the cut position, and through the starting of the splitting machine body 10, the foam can be cut; the threaded rod 83 can be driven to rotate by starting the rotating motor 82, the threaded rod 83 can be driven to rotate to drive the moving block 84 to move back and forth, the moving block 84 can move back and forth, the slitting machine body 10 can be driven to move back and forth through the telescopic structure 9, slitting of the foam can be completed at the moment, the operation is simple, the practicability is high, clamping is mainly carried out at the slitting position through the arrangement of the auxiliary clamping structure 12, so that the twisting deformation is ensured to occur at the slitting position, the slitting effect is influenced, the arrangement of the first spring 123 is mainly used for extruding the ejector rod 122 and the arc-shaped block 124, so that the foam at the slitting position is better clamped by the arc-shaped block 124, and the two ends of the arc-shaped block 124 are arc-shaped, so that the better back and forth movement of the arc-shaped block 124 is facilitated, the front and back movement of the arc-shaped block 124 is avoided, the deformation of the foam is influenced, is suitable for different factories.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a cotton system of cutting of bubble which characterized in that includes:

a base plate;

the bottom of the U-shaped block is fixed at the top of the bottom plate;

the two clamping devices are arranged on two sides of the bottom of the inner wall of the U-shaped block and comprise two clamping plates, and the bottoms of the two clamping plates are respectively connected to two sides of the bottom of the inner wall of the U-shaped block in a sliding mode;

the bottoms of the two baffle plates are respectively fixed at the tops of the two clamping plates, clamping blocks penetrate through the tops of the two baffle plates, the bottoms of the two clamping blocks penetrate through the two baffle plates and extend to the bottoms of the two baffle plates, one ends of the two clamping blocks extending to the bottoms of the two baffle plates are respectively fixedly connected with a clamping plate, and one side of each clamping plate is respectively connected with one side of the two clamping plates in a sliding mode, wherein the side of each clamping plate is opposite to the side of the two clamping plates;

the two clamping structures are respectively arranged at the tops of the two baffles;

the bottoms of the two supporting plates are respectively fixed on two sides of the top of the bottom plate;

the two sides of the bottom of the top plate are respectively fixed to the two sides of the bottoms of the two supporting plates, and the front surface of the top plate is fixedly connected with a scale plate;

the moving structure is arranged at the bottom of the top plate and comprises a moving box, and the top of the moving box is connected to the bottom of the top plate in a sliding manner;

the cutting machine comprises a movable box, a telescopic structure and a cutting mechanism, wherein the telescopic structure is arranged at the bottom of the movable box and comprises a sliding plate, the top of the sliding plate is connected to the bottom of the movable box in a sliding mode, the bottom of the sliding plate is fixedly connected with an electric telescopic rod, the bottom end of the electric telescopic rod is fixedly connected with a stabilizing frame, the bottom of the stabilizing frame is provided with a cutting machine body, two sides of the cutting machine body are fixedly connected with connecting plates, and the tops of the two connecting plates are fixed to the bottom of the stabilizing frame through supporting rods;

and the two auxiliary clamping structures are respectively arranged at the bottoms of the two connecting plates.

2. The foam slitting system according to claim 1, wherein a screw rod is connected to the bottom of the side, away from each other, of each of the two support plates through a thread, the other end of each of the two screw rods penetrates through the U-shaped block and extends into the U-shaped block, and one end, extending into the U-shaped block, of each of the two screw rods is rotatably connected to the side, away from each other, of each of the two clamping plates.

3. The foam slitting system according to claim 1, wherein the clamping structure comprises a clamping frame, a T-shaped block is slidably connected between the top and the bottom of the inner wall of the clamping frame, and one side of the T-shaped block penetrates through the clamping frame and extends to the outside of the clamping frame.

4. The foam slitting system according to claim 3, wherein an operating rod is fixedly connected to the other side of the T-shaped block, the other end of the operating rod penetrates through the clamping frame and extends to the outside of the clamping frame, and an extrusion spring is sleeved on the outer surface of the operating rod, which is located inside the clamping frame.

5. The foam cotton slitting system according to claim 1, wherein a rotating motor is fixedly connected to the back of the moving box through a support frame, a threaded rod is fixedly connected to an output shaft of the rotating motor, a moving block is slidably connected to the top of the inner wall of the moving box, the bottom of the moving block penetrates through the moving box and extends to the bottom of the moving box, and one end of the moving block, which extends to the bottom of the moving box, is fixed to the top of the sliding plate.

6. The foam slitting system according to claim 5, wherein one end of the threaded rod penetrates through the movable box and extends into the movable box, one end of the threaded rod extending into the movable box is rotatably connected to the front face of the interior of the movable box, and the inner surface of the movable block is in threaded connection with the outer surface of the threaded rod.

7. The foam slitting system according to claim 1, wherein both sides of the bottom of the sliding plate are fixedly connected with retractable plates, one opposite side of each of the two retractable plates is slidably connected with an auxiliary plate, and the bottoms of the two auxiliary plates are slidably connected with the top of the stabilizing frame.

8. The foam cotton slitting system according to claim 1, wherein a driving structure is arranged at the top of the top plate, the driving structure comprises a U-shaped frame, the bottom of the U-shaped frame is fixed at the top of the top plate, a sliding rod is fixedly connected between two sides of the inner wall of the U-shaped frame, a sleeve is slidably connected to the outer surface of the sliding rod, a driving rod is fixedly connected to the bottom of the sleeve, the bottom end of the driving rod penetrates through the top plate, extends to the bottom of the top plate, and one end of the driving rod, which extends to the bottom of the top plate, is fixed at the top of the movable box.

9. The foam slitting system according to claim 8 wherein an elastic anti-slip sleeve is fixedly attached to an inner surface of the sleeve.

10. The foam cotton slitting system according to claim 1, wherein the auxiliary clamping structure comprises an auxiliary frame, an ejector rod is slidably connected between two sides of an inner wall of the auxiliary frame, a first spring is fixedly connected to the top of the ejector rod, the bottom end of the ejector rod penetrates through the auxiliary frame and extends to the bottom of the auxiliary frame, and an arc-shaped block is fixedly connected to one end of the ejector rod, which extends to the bottom of the auxiliary frame.

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